Phosphatases and esterases activity in the brain following an acute sublimate intoxication.

Experiment studies were performed on rats that were administered mercury chloride sublimate with a special gastric cannule in a single 6 mg dose for four consecutive days. As a result of the investigations some changes in the phosphates and esterases activity were revealed. The diminution of AcP, AIP, ATP-ase and AChE activity as well as in the increase in TPP-ase activity in the neurocytes, and also the appearance on NsE activity in many oligodendrocytes was observed. The fall in ATP-ase activity was, above all, observable in cerebral and cerebellar capillaries, which is, in the authors opinion, a manifestation of enzymatic damage to the blood-brain barrier due to a toxic action of mercuric chloride. In the discussion attention was drawn to differences in the degree of enzymatic activity between a mercuric chloride intoxication and that with mercurous chloride, as well as attempt was made to explain the pathogenetic mechanism of this phenomenon. Furthermore, notice was brought to the fact that in the course of sublimate encephalopathy no changes are observed in BuTJ activity.     

Golgi impregnation with mercuric chloride: studies on the precipitate by X-ray powder diffraction and selected area electron diffraction

Summary An investigation was carried out to determine the nature of the precipitate in a technique which was originally proposed by Golgi and, later, modified by Cox, to stain nerve cells by the treatment of tissue with potassium dichromate and mercuric chloride.The approach was a twofold one: the study of the patterns of X-ray diffraction of successfully impregnated tissue and the analysis of electron diffraction patterns of selected areas of tissue where impregnated structures were observed.Evidence has been obtained that the precipitate, prior to the final alkalinization process, is mercurous chloride (calomel, Hg₂Cl₂). There appears to be no formation, at any time, of mercurous or mercuric chromate. The mercurous chloride is topographically associated exclusively with the presence of stained structures and cannot be detected in the non-stained background.Following the alkalinizing process necessary for the final darkening of the stained structures, the X-ray diffraction pattern of mercurous chloride usually was no longer detectable. It appears reasonable to assume that, when no crystalline compounds can be detected, metallic liquid mercury is formed.This study was supported by U.S. P.H.S. Grant NS 07998 and by the Medical Research Council of Canada. We are indebted to Mrs. K. Sörensen and Mr. A. Meier for technical assistance.     

Further experiments on the control of white rot (Sclerotium cepivorum Berk;) in onions, shallots and leeks

Trials in 1945 confirmed earlier work on the efficacy of mercurous chloride (calomel) for the control of Sclerotium cepivorum in spring-sown onions. The application of 1 lb. 4% calomel dust to 50 yd. of seed drill at sowing time gave sufficiently good control of the disease in salad onions. Broadcast application of 1 oz. 4% calomel dust per sq.yd. before sowing was less effective but promising. Post-emergence application of the dust was useless. In autumn sowings, seed-drill treatment at 1 lb./so yd. controlled the disease in the following spring, but caused severe retardation and loss of crop.
Onion seedlings raised in heat and dipped in an aqueous paste of calomel dust before transplanting showed a high degree of resistance to a severe attack. Similar treatment of shallot bulbs was also effective. In both cases, the treatment substantially increased the yield and somewhat reduced storage losses.
Leek seedlings transplanted into dibber holes did not develop the disease.     

Depletion of tryptophan hydroxylase by 5,6-dihydroxytryptamine in rat brain. Time course and regional differences

—Wistar rats were injected intraventricularly with 75 μg 5,6-dihydroxytryptamine. Tryptophan hydroxylase was assayed in seven regions of the brain as well as spinal cord at intervals following injection. Spinal cord was depleted to 1 per cent of control by 12 days. Tectum was depleted to 32 per cent of control by 9 days. The time course of depletion in most regions was biphasic, with an early reduction of activity 1 h after injection with continued reduction of activity 1-2 days following injection, and a recovery of activity at 4-6 days. The activity again drops at 9-12 days, and this reduction of activity persists to varying degrees to 60 days, with slight recovery at this time in certain regions.     

Experiments on the control of white rot (Sclerotium cepivorum Berk.) in onions

Experiments-made during 1943 and 1944 on the use of mercurous chloride (calomel) for the control of Sclerotium cepivorum in spring-sown onions are described. The application of 4% calomel dust to the seed drill at sowing time gave better results than seed treatment. 1 lb. of dust per 25 yd. of seed drill gave good disease control in bulb onions, and 1 lb./so yd. may suffice for salad onions.
The relation between disease control and the effective mercury content of the treated soil is discussed.     

Chloroquine Intoxication Induces Ganglioside Storage in Nervous Tissue: A Chemical and Histopathological Study of Brain, Spinal Cord, Dorsal Root Ganglia, and Retina in the Miniature Pig

Abstract :
The effect of chronic chloroquine intoxication on lipid composition, particularly the gangliosides, was studied in the nervous system of miniature pigs, type Göttingen. The tissues examined were cerebrum, spinal cord, dorsal root ganglia and retina. Chloroquine was given in the diet in doses of 2.0-3.5 g/kg food. The intoxication of the pigs was started at the age of 100–240 days and continued for 177-219 days. The control pigs received the same diet without chloroquine. The ganglioside concentration was increased in all the tissues examined. Dorsal root ganglia and retina were the tissues affected most and showed a twofold increase. This corresponded to the light and electron microscopically demonstrated extensive storage process in the perikarya of dorsal root ganglion cells and inner ganglion cells of the retina. Under light microscopy the storage material was granular, intensely PAS-positive and dissolved by paraffin embedding. The electron microscopical equivalent consisted of conglomerates of membranous lysosomal residual bodies. In cerebrum the ganglioside concentration was increased by 12%. Storage in the brain varied widely between different systems and types of cells. The allocortex was much more affected than the isocortex. Certain inhibitory ganglion cell types, such as the basket cells, exhibited the most massive storage of all. The spinal medulla was morphologically less involved but showed approximately the same ganglioside increase, though not statistically significant. With the exception of cerebrum the increase in the tissues examined involved all the individual gangliosides, most severely ganglioside GM2 and three fucogangliosides. In cerebrum only the ganglioside GM2 was increased more than the other gangliosides. Chloroquine intoxication did not affect the concentration of phospholipids or cholesterol in the cerebrum, spinal cord or dorsal root ganglia, but in retina the acidic phospholipids were significantly increased.     

不同频率电针刺激对神经痛模型大鼠脊髓背角P物质的影响

目的:观察P物质(Substance P,SP)在慢性坐骨神经压迫损伤(chronic constriction injury,CCI)模型脊髓中表达的变化,探讨电针镇痛的机制是否与脊髓背角中SP表达的变化有关。方法:选择32只雄性、体重180-200 g的SD大鼠,并将其随机均分为4组(n=8)。空白组(Con组)为正常痛阈值大鼠;假电针组(CCI+A组)在损伤的坐骨神经旁置入电针,但无电流刺激;2 Hz组和100Hz组分别给予相应频率电流刺激30 min。在实验开始前和术后1、4、7、14、20、22天记录大鼠的热缩足反射潜伏期(Paw Withdrawal Latency,PWL)和机械刺激缩足反射阈值(Paw Withdrawal Threshold,PWT)。免疫组化方法检测脊髓背角SP的表达。结果:术后20天,电针治疗后,100 Hz组和2 Hz组PWT分别为(7.33±1.42)g和(7.80±1.42)g,均显著高于假电针组(2.60±1.46)g,差异有统计学意义(P0.05)。100 Hz组在术后20天后和2 Hz组在术后14天后PWL值均显著高于假电针组,差异有统计学意义(P0.05)。免疫组化显示:2 Hz组和100 Hz组大鼠脊髓背角中P物质阳性细胞显著低于假电针组(P0.05)。结论:坐骨神经旁电针刺激能够显著减轻CCI模型大鼠热痛觉及机械痛觉过敏,其机制可能与抑制脊髓背角SP的表达有关。     

缺血预处理对缺血再灌注后兔脊髓磷酸腺苷代谢的影响

目的：研究缺血参处理对缺血再灌注后兔脊髓磷酸腺苷代谢的影响。方法：往置入腹主动脉的Swan-Ganz导管气囊内注气造成兔腰髓缺血模型。将实验兔分为假手术组、缺血组和预处理组。应用反相高效液相色谱方法（reverse phase HPLC),对缺血再灌注后不同时间点腰髓组织中磷酸腺苷（ATP、ADP、AMP）的含量进行检测。结果：和假手术组相比,缺血组兔再灌后各时间点腰髓组织ATP含量有明显下降（P＜0．01）。与缺血组相应时间点相比,预处理组兔再灌注后腰髓组织ATP含量明显提高（P＜0．01）。结论：缺血预处理显著提高缺血再灌注后兔脊髓组织ATP含量,这可能是缺血预处理对脊髓缺血再灌注损伤产生保护作用的机制之一。     

Proteolytic activity in brains of rabbits treated with aluminum

Aluminum injection in rabbits leads to neurofibrillary changes which are at light microscopic level similar to those found in Alzheimer's disease. We used this animal model to see whether changes in proteolytic activity occur that may affect protein degradation in the altered neurofibrillary structure. Rabbits were injected via the cisterna magna with aluminum chloride, and after ten days tissue was excised from the spinal cord, hippocampus, occipital lobe, and cerebellum. Sections from the hippocampus and spinal cord were examined for neurofibrillary changes; enzyme activity was measured in all four areas. The enzymes studied were cathepsins A, B, and D, and the angiotensin-converting enzyme. No significant differences could be established in enzymatic activity in aluminum-injected animals compared to controls. However, a significant decrease in Triton-soluble proteins was observed in the treated animals, which correlated with changes in neurofibrillary structure. This decrease was most noticeable in the spinal cord (from 16.6 to 12.5 mg/g).     

Diseases of the gladiolus: I. Control of hard rot, due to Septoria gladioli Passer., by fungicidal treatment of the corms

Losses from hard rot, measured by an arbitrary disease index, were reduced by treating the dehusked corms before planting with mercuric chloride (with or without the addition of 10% hydrochloric acid), mercurous chloride (calomel), three proprietary mercury compounds (Aretan, Uspulun and Ceresan) and one proprietary non-mercury compound (Folosan). Calomel was the least effective. All the treatments were relatively less effective when corms with definite lesions were treated.
The weight of clean corms produced per old corm planted (weight index) was usually increased by all the fungicides tried, but calomel and Ceresan were less satisfactory than the others.
Mercuric chloride (3 hr. steep in a 0.1% solution) was not rendered more effective by the addition of hydrochloric acid nor by a preliminary dip in methylated spirits to facilitate wetting, while the addition of a proprietary wetting compound (Agral) was definitely harmful to the corms and usually less effective than mercuric chloride alone. Increase in time of steeping or concentration of mercuric chloride was not beneficial and was sometimes harmful. Reduction in time of steeping to 1 hr. gave promising results.
Treatment in November had some advantages over treatment in March.
All the mercury compounds tended to delay flowering, this being most marked in the presence of the wetting compound. Stunted foliage and poor quality flowers resulted from the use of Ceresan.     

Development of spinal cord bioelectric activity in spinal chick embryos and its behavioral implications

Embryonic behavior of the chick is the product of spontaneous multiunit burst discharges within the ventral spinal cord. The present study describes the ontogeny of spinal cord burst discharges in embryos which were deprived of brain input by removing several neural tube segments of 2-day embryos at cervical or mid-thoracic levels. Characteristics of bioelectric activity present in both intact and chronically transected cords are: (a) the appearance of spike discharges; (b) the organization of unit discharges into synchronized multiunit bursts; (c) the establishment of intracord synchronization of burst discharges over wide expanses of cord tissue; (d) an increase in burst duration and complexity at 7 days due to the appearance of the burst afterdischarge; (e) an increase in the amount of burst activity from 6 to 13 days followed by a decline until hatching at 21 days; (f) a shift from periodic to irregular patterns of burst activity at 13 days; and (g) the existence of the cord burst discharge as a correlate of embryonic movement. Several differences were found between burst activity from chronic spinal and intact embryos: (a) cervical spinal embryos were significantly less active than controls from 15 through 19 days; and (b) long sequences of unusual repetitive burst afterdischarges appeared in chronic spinal embryos by 13 days. The results indicate that the transected embryonic spinal cord is remarkably autogenous in function, although patterns of activity unique to the transected cord appear and increase in prominence during later stages of incubation.     

Disruption of KCC2 reveals an essential role of K-Cl cotransport already in early synaptic inhibition

Synaptic inhibition by GABA(A) and glycine receptors, which are ligand-gated anion channels, depends on the electrochemical potential for chloride. Several potassium-chloride cotransporters can lower the intracellular chloride concentration [Cl(-)](i), including the neuronal isoform KCC2. We show that KCC2 knockout mice died immediately after birth due to severe motor deficits that also abolished respiration. Sciatic nerve recordings revealed abnormal spontaneous electrical activity and altered spinal cord responses to peripheral electrical stimuli. In the spinal cord of wild-type animals, the KCC2 protein was found at inhibitory synapses. Patch-clamp measurements of embryonic day 18.5 spinal cord motoneurons demonstrated an excitatory GABA and glycine action in the absence, but not in the presence, of KCC2, revealing a crucial role of KCC2 for synaptic inhibition.     

Allyl Chloride-Induced Time Dependent Changes of Lipid Peroxidation in Rat Nerve Tissue

To accurately know the time-dependent changes of the lipid peroxidation and antioxidative status for elucidating the mechanism of neuropathy induced by allyl chloride (AC), the malondialdehyde (MDA), anti-reactive oxygen species (anti-ROS), glutathione (GSH), catalase (CAT), glutathione peroxidase (GPx) and superoxide dismutase (SOD) were investigated in cerebrum, spinal cord and sciatic nerve of rats after 0, 3, 6, 9, 12 weeks of␣AC administration. AC was administrated to Wistar rats by gavage at a single dosage of 200 mg/kg/per dose (three times per week). Rats were sacrificed after 0, 3, 6, 9, 12 weeks of treatment, and cerebrum, spinal cord, sciatic nerves were dissected, homogenized and used for the determination of lipid peroxidation and antioxidative status. The results showed that MDA in cerebrum (112.4%) and sciatic nerve (113.1%) significantly increased (P < 0.05) on third week of AC treatment and at gait score of 2, and further changes of MDA were observed after 6, 9, 12 weeks and at gait score of 3, 4. While a decrease (P < 0.05) in the activities of GSH, CAT, GPx and SOD after 6, 9, 12 weeks intoxication and at gait score of 2, 3, 4 were observed in cerebrum, spinal cord and sciatic nerve. Anti-ROS activities also decreased in all three nerve tissues after 3, 6, 9, 12 weeks intoxication and at gait score of 2, 3, 4. Thus, AC intoxication was associated with elevation of lipid peroxidation and reduction of antioxidative status, and the time-dependent changes of these indexes in Wistar rats nerve tissues occurred. Sciatic nerve was the main target tissue and MDA was most sensitive among all indexes. The changes of lipid peroxidation and antioxidative status might be related to the degradation of nerve fiber and served as one of mechanisms of toxic neuropathy induced by AC.     

缺血后低压灌注处理对兔脊髓缺血/再灌注损伤的保护及ERK传导通路在其中的作用

目的 评价细胞外信号调节激酶 (ERK)传导通路对低压灌注缺血后处理兔缺血/再灌注损伤脊髓的保护作用及机制.方法 84只日本大耳白兔随机分为7组,分别为C组(对照组,不给予缺血后处理)、PB组(缺血后处理组)、D、PD1、PD3、PD9组分别于腹主动脉开放前1min鞘内注射DMSO 20μl、PD98059 1μg(20μl)、PD98059 3μg(20μl)、PD98059 9μg(20μl)之后进行缺血后处理及PD组(腹主动脉开放前1min鞘内注射PD98059 3μg(20μl),之后不行缺血后处理).分别于再灌注1、3、7、28d时采用Tarlov评分评价后肢运动功能.每组于再灌注1d时处死6只动物,取L3～5节段脊髓组织,采用Western blot技术测定p-ERK1/2 及Bcl-2,Bax蛋白表达.结果 1、3、7、28d,PB组Tarlov评分明显高于其它各组(P<0.05),缺血后处理可以明显上调p-ERK1/2及凋亡抑制基因Bcl-2的表达,下调凋亡促进基因Bax的表达(P<0.05),而这些调节作用可以被ERK1/2阻断剂PD98059抑制.结论 p-ERK1/2在低压灌注缺血后处理对缺血再灌注损伤脊髓的保护中起重要作用.     

Diseases of the gladiolus: II. Experiments on dry rot disease caused by Sclerotinia gladioli Drayt

Inoculation experiments show that (1) young corms are more susceptible than old and become less susceptible as they develop, (2) infection of unwounded corms readily takes place, (3) inoculation of the top of an old corm is more effective than that of the side or base.
The percentage diseased new corms produced from infected parent corms varies from o to 100 according to soil conditions. Disease is favoured by wet soil.
Removal of 'husks' (leaf bases) increases the susceptibility of corms planted in contaminated soil, but the presence of husks is not an effective control. Dehusking did not increase the number of diseased young corms in an infected stock planted in new soil.
No variety was strikingly more resistant than the rest.
Good control was obtained when, corms of a diseased stock were treated with mercuric chloride, mercurous chloride (calomel) or the proprietary mercury fungicide Aretan. Calomel gave the most consistent results. Various other treatments were tested in small-scale trials with some success. Red copper oxide, formalin and the proprietary mercury compound, Ceresan, were harmful.
Sterilization of contaminated soil with formalin, mercuric chloride, Aretan or Uspulun gave good but not complete control. Formalin was the least effective.     

Combinational therapy of lithium and human neural stem cells in rat spinal cord contusion model

A large number of treatment approaches have been used for spinal cord injury improvement, a medically incurable disorder, and subsequently stem cell transplantation appears to be a promising strategy. The main objective of this study is to ascertain whether combinational therapy of human neural stem cells (hNSCs) together with lithium chloride improves cell survival, proliferation, and differentiation in a rat spinal contusion model, or not. Contusive spinal cord injury was implemented on Wistar male rats. Experimental groups comprised of: control, hNSCs transplanted, lithium chloride (Li), and hNSCs and lithium chloride (hNSCs + Li). In every experimental group, locomotor activity score and motor evoked potential (MEP) were performed to evaluate motor recovery as well as histological assessments to determine mechanisms of improvement. In accordance with our results, the hNSCs + Li and the Li groups showed significant improvement in locomotor scores and MEP. Also, Histological assessments revealed that transplanted hNSCs are capable of differentiation and migration along the spinal cord. Although NESTIN-positive cells were proliferated significantly in the Lithium group in comparison with control and the hNSCs + Li groups, the quantity of ED1 cells in the hNSCs + Li was significantly larger than the other two groups. Our results demonstrate that combinational therapy of hNSCs with lithium chloride and lithium chloride individually are adequate for ameliorating more than partial functional recovery and endogenous repair in spinal cord-injured rats.     

BIOSYNTHESIS OF PSYCHOSINE AND LEVELS OF CEREBROSIDES IN THE CENTRAL AND PERIPHERAL NERVOUS SYSTEMS OF QUAKING MICE

Abstract— The levels of cerebrosides in neural tissues of adult mice were determined by densitometry of cerebroside spots on charred thin-layer chromatograms of washed total lipid extracts. Values for brain, spinal cord and peripheral nerves were 9·2, 33·0 and 36·9 mg/g of tissue, respectively. In adult Quaking mice these values were 6·4, 24 and 35 % of normal, respectively. Normal levels in brain, spinal cord and peripheral nerve of 21-day-old mice were 3·10, 13·5 and 17·8 mg/g, respectively. In 21-day-old Quaking mice the levels were reduced to 16,21 and 57% of normal, respectively. Biosynthesis of psychosine (galacto-sylsphingosine) by homogenates of Quaking brain, spinal cord and peripheral nerve, respectively, was 18, 24 and 42% of the normal rates at 21 days after birth and 16, 66 and 60% of the normal rates at 94 days. Our results suggest a quantitative relationship between the rate of formation of psychosine in vitro and the rate of accumulation of cerebrosides. in vivo. Biosynthesis of lactosylceramide was not reduced in homogenates of brain and spinal cord from Quaking mice. Cerebroside levels in normal and Quaking spinal cord and in normal brain increased 2- to 3-fold after 21 days of age, but in Quaking brain there was little or no increase.     

Assessment of Oxidative Parameters in Rat Spinal Cord After Chronic Constriction of the Sciatic Nerve

Although reactive oxygen species (ROS) are involved in neuropathic pain, the direct relationship between these species and chronic constriction of sciatic nerve (CCI) has not been studied in spinal cord. Thus, this study induced CCI in rats and these animals were sacrificed 3 and 10?days after the surgical procedure to determine the superoxide dismutase (SOD) and catalase activities, as well as ascorbic acid, hydrogen peroxide (H(2)O(2)) and lipid hydroperoxide levels in lumbosacral spinal cord. Von Frey Hair and hot plate tests were performed to assess the degree of mechanical and thermal hyperalgesia at days 0, 3 and 10. The results showed that CCI significantly induced mechanical and thermal hyperalgesia at days 3 and 10. Parallel there was increase in spinal cord lipid hydroperoxide at days 3 and 10 in rats submitted to CCI. In Sham rats a significant increase in this parameter occurred at day 10. H(2)O(2) decreased at day 10 only in CCI group. SOD activity was decreased in Sham and CCI groups at day 3, while catalase activity was increased in CCI rats at days 3 and 10. Ascorbic acid levels were reduced only in CCI rats at day 3. Although the role of such changes is unclear, many were not specific to neuropathic pain and the differences could be related to different degrees of central sensitization in Sham and CCI rats.     

Free Radicals in Rabbit Spinal Cord Ischemia: Electron Spin Resonance Spectroscopy and Correlation with SOD Activity

1. In nonanesthetized rabbits temporal occlusion of the abdominal aorta was used to induce oxidative stress in the lower part of the body including distal segments of the spinal cord.2. Spinal cord samples were taken from the animals exposed to 25-min aortic occlusion (AO ) or to occlusion followed by 1- or 2-hr reperfusion (AO/R1 or AO/R2, respectively) or from sham-operated animals (C). The presence of free radicals (FR) in the spinal cord samples frozen in liquid N₂ was assessed by ESR spectroscopy without spin trapping. Moreover, superoxide dismutase (SOD) activity and conjugated diene (CD) levels were measured in the samples.3. In the AO group FR were detected in the spinal cord regions close to the occlusion (lower thoracic and distal segments) along with a decrease in SOD activity. The calculated g value (g = 2.0291) indicated that the paramagnetic signal recorded might be attributed to superoxide radicals. FR were absent in the AO/R1 group. Concurrently, the SOD activity revealed a significant tendency to return to the control level. FR appeared again in the AO/R2 group, mostly in the upper and middle lumbar regions, along with a decrease in SOD activity. No sample from the C group revealed FR. A significant increase in CD levels was observed in the thoracolumbar region only in the AO/R2 group. The temporary absence of FR in the AO/R1 group suggests activation of defense antioxidant mechanisms (e.g., specific enzymatic systems such as SOD), which might have been exhausted later.4. Changes in SOD activity similar to those observed in the thoracolumbar region, though less noticeable, occurred in the obviously noncompromised tissue (upper cervical region). This points to a kind of generalized reponse of the animal to aortic occlusion.5. Direct ESR spectroscopy revealed the presence of FR as well as their time course in the spinal cord during the early phase of ischemia/reperfusion injury and the inverse relationship between FR and SOD activity.     

Ammonia Intoxication: Effects on Cerebral Cortex and Spinal Cord

The effect of an acute systemic ammonia intoxication on the metabolic states of the cerebral cortex and the spinal cord of the same animal was studied in the cat. The intravenous infusion of ammonium acetate (2 and 4 mmol/kg body weight/30 min) increased the gross levels of tissue NH4+, glutamine, glutamine/glutamate ratio, lactate, and the lactate/pyruvate ratio in the cerebral cortex and the spinal cord. Pyruvate increased, but significantly only in the spinal cord; aspartate decreased, but significantly only in the cerebral cortex. The infusion of ammonium acetate did not significantly change the levels of phosphocreatine, ATP, ADP, AMP, total adenine nucleotides, adenylate energy charge, glucose, glutamate, alpha-ketoglutarate, and malate in either tissue. The changes of NH4+, glutamine, and lactate levels as well as glutamine/glutamate and lactate/pyruvate ratios in the spinal cord correlated significantly with the corresponding changes of these metabolites in the cerebral cortex. Thus, cerebral cortex and spinal cord show certain specific and comparable metabolic changes in response to a systemic ammonia intoxication. The effect of ammonia intoxication on the increases of glutamine and lactate levels is discussed.